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I'm trying to create a function that takes in 2 lists and returns the list that only has the differences of the two lists.


a = [1,2,5,7,9]
b = [1,2,4,8,9]

The result should print [4,5,7,8]

The function so far:

def xor(list1, list2):
    for i in range(0, len(list3)):
        while y>0 and x<list3[y-1]:

    for i in range(len(list3) -2, -1, -1):
        if last==list3[i]:
            del list3[i]

    return list3 
print xor([1,2,5,7,8],[1,2,4,8,9])

The first for loop sorts it, second one removes the duplicates. Problem is the result is [1,2,4,5,7,8,9] not [4,5,7,8], so it doesn't completely remove the duplicates? What can I add to do this. I can't use any special modules, .sort, set or anything, just loops basically.

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5 Answers 5

up vote 5 down vote accepted

You basically want to add an element to your new list if it is present in one and not present in another. Here is a compact loop which can do it. For each element in the two lists (concatenate them with list1+list2), we add element if it is not present in one of them:

[a for a in list1+list2 if (a not in list1) or (a not in list2)]

You can easily transform it into a more unPythonic code with explicit looping through elements as you have now, but honestly I don't see a point (not that it matters):

def xor(list1, list2):
    outputlist = []
    list3 = list1 + list2
    for i in range(0, len(list3)):
        if ((list3[i] not in list1) or (list3[i] not in list2)) and (list3[i] not in outputlist):
             outputlist[len(outputlist):] = [list3[i]]
    return outputlist
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Mmmm, list comprehensions –  Patashu May 1 '13 at 4:33
I think i understand what it's doing, but how would I make this into a full loop and do I add this loop to the original function or is would this work on its own... –  user2314520 May 1 '13 at 4:55
This is a one-liner which does the function you are creating... You loop through list1+list2 elements x and have two if's: 1. if element in list1, make flag1=True, 2. if element in list2, make flag2=True; If (flag1 and flag2) != True and x not in outputlist, add it to outputlist. –  sashkello May 1 '13 at 5:00
@user2314520 What sashkello means is that any list comprehension is equivalent to a for loop over the items of the iterable, that adds said items to a new list if they match the condition, and then using the resultant list. –  Patashu May 1 '13 at 5:04
@user2314520: another way to look at it is: it finds a union of both lists without including an intersection of the lists (i.e., it find symmetric difference). Union is list1 + list2. An element x is in the intersection if x is in list1 and x is in list2; you want to exclude such elements so the condition should be reversed: not (x in list1 and x in list2) that is equivalent to x not in list1 or x not in list2. Putting it all together xor_list = [x for x in (list1 + list2) if x not in list1 or x not in list2]. –  J.F. Sebastian May 2 '13 at 1:56

Note: This is really unpythonic and should only be used as a homework answer :)

After you have sorted both lists, you can find duplicates by doing the following:

1) Place iterators at the start of A and B

2) If Aitr is greater than Bitr, advance Bitr after placing Bitr's value in the return list

3) Else if Bitr is greater than Aitr, advance Aiter after placing Aitr's value in the return list

4) Else you have found a duplicate, advance Aitr and Bitr

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Why do you think that your approach is unpythonic? –  John La Rooy May 1 '13 at 5:02
@gnibbler See Sheng's answer for what I consider pythonic –  Patashu May 1 '13 at 5:03
That relies on the elements all being hashable though. (They probably are) –  John La Rooy May 1 '13 at 5:06

Use set is better

>>> a = [1,2,5,7,9]
>>> b = [1,2,4,8,9]
>>> set(a).symmetric_difference(b)
{4, 5, 7, 8}

Thanks to @DSM, a better sentence is:

>>> set(a)^set(b)

These two statements are the same. But the latter is clearer.

Update: sorry, I did not see the last requirement: cannot use set. As far as I see, the solution provided by @sashkello is the best.

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Good answer for nonhomework, but 'I can't use any special modules, .sort, set or anything, just loops basically.' –  Patashu May 1 '13 at 4:31
Why not simply set(a) ^ set(b), if we're using sets? –  DSM May 1 '13 at 4:33
@DSM Thanks, your suggestin is better. I just forget the grammar. –  Sheng May 1 '13 at 4:33
I actually like symmetric_difference as much as ^, but I prefer either to the original long version you had. But you changed it to symmetric_difference at the same time I commented. :^) –  DSM May 1 '13 at 4:36

This code works assuming you've got sorted lists. It works in linear time, rather than quadratic like many of the other solutions given.

def diff(sl0, sl1):
    i0, i1 = 0, 0
    while i0 < len(sl0) and i1 < len(sl1):
        if sl0[i0] == sl1[i1]:
            i0 += 1
            i1 += 1
        elif sl0[i0] < sl1[i1]:
            yield sl0[i0]
            i0 += 1
            yield sl1[i1]
            i1 += 1
    for i in xrange(i0, len(sl0)):
        yield sl0[i]
    for i in xrange(i1, len(sl1)):
        yield sl1[i]

print list(diff([1,2,5,7,9], [1,2,4,8,9]))
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+1 for the linear solution. In general, you could adapt it to accept any iterable, essentially implementing @Patashu's algorithm. –  J.F. Sebastian May 2 '13 at 1:39

Simple, but not particularly efficient :)

>>> a = [1,2,5,7,9]
>>> b = [1,2,4,8,9]
>>> [i for i in a+b if (a+b).count(i)==1]
[5, 7, 4, 8]

Or with "just loops"

>>> res = []
>>> for i in a+b:
...  c = 0
...  for j in a+b:
...   if i==j:
...    c += 1
...  if c == 1:
...   res.append(i)
>>> res
[5, 7, 4, 8]
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hehe, good one! –  sashkello May 1 '13 at 5:05

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